Sans Superellipse Rikig 2 is a light, normal width, medium contrast, upright, normal x-height font.
Keywords: ui labels, signage, dashboards, packaging, headlines, techy, modern, clinical, streamlined, utilitarian, geometric clarity, system feel, modern branding, screen readability, neutral utility, rounded corners, square-leaning, monoline, geometric, condensed feel.
This typeface is a monoline sans with a squared, superellipse construction: bowls and counters read as rounded rectangles, and corners are consistently softened rather than fully circular. Strokes stay even and clean, with open apertures and largely straight-sided verticals that give the alphabet a tidy, engineered rhythm. Proportions feel slightly narrow in impression, and the lowercase keeps a straightforward, single-storey structure where applicable, pairing compact forms with generous internal space. Numerals echo the same rounded-rectangle logic, producing a cohesive, modular look across letters and figures.
It suits interface typography, controls, and product labeling where a compact, highly regular rhythm helps maintain clarity. The squared-round construction also works well for contemporary branding, tech packaging, and short headlines, especially when a clean, engineered aesthetic is desired.
The overall tone is contemporary and tech-oriented, with a crisp, system-like calm. Rounded corners temper the rigidity of the square geometry, creating a friendly but controlled voice that feels functional rather than expressive.
The design appears intended to fuse geometric efficiency with softened corners, delivering a modern sans that feels precise, modular, and approachable. Its consistent superellipse geometry suggests a goal of visual uniformity across glyphs for clear, systematized communication.
Curves resolve into flattened arcs and squared terminals, which makes the design read well in UI-like settings and at medium sizes where the consistent corner radius becomes a defining signature. The overall texture is even and quiet, emphasizing clarity and structure over personality-driven stroke modulation.